Using the method of volumometry the permeability coefficients of SPEV cell membranes for molecules of ethylene glycol (EG), 1,2-butane diol (1,2-BD), glycerol, dimethyl sulfoxide (DMSO) and dimethyl formamide (DMFA) at 35, 20 and 5Â°Ð¡ have been determined. The activation energy values of transport...

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Date:	2011
Main Authors:	Chernobay, N. A., Kovalenko, I. F., Koschiy, S. V., Kovalenko, S. Ye., Rozanov, L. F.
Format:	Article
Language:	English
Published:	Publishing House ‘Akademperiodyka’ of the National Academy of Sciences of Ukraine; Institute for Problems of Cryobiology and Cryomedicine 2011
Subjects:	ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– ÐµÐ½ÐµÑ€Ð³Ñ–Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ñ–Ñ— ÐºÐ»Ñ–Ñ‚Ð¸Ð½Ð¸ Ð¡ÐŸÐ•Ð’ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ñ–Ñ
Online Access:	https://cryo.org.ua/journal/index.php/probl-cryobiol-cryomed/article/view/153
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Journal Title:	Problems of Cryobiology and Cryomedicine

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id	oai:ojs.pkp.sfu.ca:article-153
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institution	Problems of Cryobiology and Cryomedicine
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datestamp_date	2025-04-20T04:16:40Z
collection	OJS
language	English
topic	ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– ÐµÐ½ÐµÑ€Ð³Ñ–Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ñ–Ñ— ÐºÐ»Ñ–Ñ‚Ð¸Ð½Ð¸ Ð¡ÐŸÐ•Ð’ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ñ–Ñ
spellingShingle	ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– ÐµÐ½ÐµÑ€Ð³Ñ–Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ñ–Ñ— ÐºÐ»Ñ–Ñ‚Ð¸Ð½Ð¸ Ð¡ÐŸÐ•Ð’ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ñ–Ñ Chernobay, N. A. Kovalenko, I. F. Koschiy, S. V. Kovalenko, S. Ye. Rozanov, L. F. Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹
topic_facet	ÐºÐ¾ÑÑ„Ñ„Ð¸Ñ†Ð¸ÐµÐ½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ ÑÐ½ÐµÑ€Ð³Ð¸Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ð¸Ð¸ ÐºÐ»ÐµÑ‚ÐºÐ¸ Ð¡ÐŸÐÐ’ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ð¸Ñ permeability coefficients activation energy SPEV cells volumometry ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– ÐµÐ½ÐµÑ€Ð³Ñ–Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ñ–Ñ— ÐºÐ»Ñ–Ñ‚Ð¸Ð½Ð¸ Ð¡ÐŸÐ•Ð’ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ñ–Ñ
format	Article
author	Chernobay, N. A. Kovalenko, I. F. Koschiy, S. V. Kovalenko, S. Ye. Rozanov, L. F.
author_facet	Chernobay, N. A. Kovalenko, I. F. Koschiy, S. V. Kovalenko, S. Ye. Rozanov, L. F.
author_sort	Chernobay, N. A.
title	Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹
title_short	Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹
title_full	Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹
title_fullStr	Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹
title_full_unstemmed	Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹
title_sort	ð—ð°ð²ð¸ñð¸ð¼ð¾ññ‚ñœ ð¿ñ€ð¾ð½ð¸ñ†ð°ðµð¼ð¾ññ‚ð¸ ð¼ðµð¼ð±ñ€ð°ð½ ðºð»ðµñ‚ð¾ðº ð¡ðÿðð’ ð´ð»ñ ð¼ð¾ð»ðµðºñƒð» ðºñ€ð¸ð¾ð¿ñ€ð¾ñ‚ðµðºñ‚ð¾ñ€ð¾ð² ð¾ñ‚ ñ‚ðµð¼ð¿ðµñ€ð°ñ‚ñƒñ€ñ‹
title_alt	Temperature Dependence of SPEV Cell Membranes Permeability for Molecules of Cryoprotectants Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹
description	Using the method of volumometry the permeability coefficients of SPEV cell membranes for molecules of ethylene glycol (EG), 1,2-butane diol (1,2-BD), glycerol, dimethyl sulfoxide (DMSO) and dimethyl formamide (DMFA) at 35, 20 and 5Â°Ð¡ have been determined. The activation energy values of transport for molecules of EG, 1,2-BD and DMSO through the plasma membrane in temperature range of 35...5Â°C are close and approximately three times as higher than the activation energy of glycerol transport. The permeability coefficients at5Â°Cfor glycerol and 1,2-BD are almost the same, for DMSO and EG are approximately three times as higher, and the permeability coefficient for DMFA is four orders higher. The permeability for DMFA molecules at35Â°Cis comparable with permeability of molecules of water, and the permeability coefficients for glycerol are one order lower, than the ones for EG, 1,2- BD and DMSO.
publisher	Publishing House ‘Akademperiodyka’ of the National Academy of Sciences of Ukraine; Institute for Problems of Cryobiology and Cryomedicine
publishDate	2011
url	https://cryo.org.ua/journal/index.php/probl-cryobiol-cryomed/article/view/153
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first_indexed	2024-09-01T17:45:46Z
last_indexed	2025-04-21T05:07:13Z
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spelling	oai:ojs.pkp.sfu.ca:article-1532025-04-20T04:16:40Z Temperature Dependence of SPEV Cell Membranes Permeability for Molecules of Cryoprotectants Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹ Ð—Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚ÑŒ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐºÑ€Ð¸Ð¾Ð¿Ñ€Ð¾Ñ‚ÐµÐºÑ‚Ð¾Ñ€Ð¾Ð² Ð¾Ñ‚ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ñ‹ Chernobay, N. A. Kovalenko, I. F. Koschiy, S. V. Kovalenko, S. Ye. Rozanov, L. F. ÐºÐ¾ÑÑ„Ñ„Ð¸Ñ†Ð¸ÐµÐ½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ ÑÐ½ÐµÑ€Ð³Ð¸Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ð¸Ð¸ ÐºÐ»ÐµÑ‚ÐºÐ¸ Ð¡ÐŸÐÐ’ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ð¸Ñ permeability coefficients activation energy SPEV cells volumometry ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– ÐµÐ½ÐµÑ€Ð³Ñ–Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ñ–Ñ— ÐºÐ»Ñ–Ñ‚Ð¸Ð½Ð¸ Ð¡ÐŸÐ•Ð’ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ñ–Ñ Using the method of volumometry the permeability coefficients of SPEV cell membranes for molecules of ethylene glycol (EG), 1,2-butane diol (1,2-BD), glycerol, dimethyl sulfoxide (DMSO) and dimethyl formamide (DMFA) at 35, 20 and 5Â°Ð¡ have been determined. The activation energy values of transport for molecules of EG, 1,2-BD and DMSO through the plasma membrane in temperature range of 35...5Â°C are close and approximately three times as higher than the activation energy of glycerol transport. The permeability coefficients at5Â°Cfor glycerol and 1,2-BD are almost the same, for DMSO and EG are approximately three times as higher, and the permeability coefficient for DMFA is four orders higher. The permeability for DMFA molecules at35Â°Cis comparable with permeability of molecules of water, and the permeability coefficients for glycerol are one order lower, than the ones for EG, 1,2- BD and DMSO. ÐœÐµÑ‚Ð¾Ð´Ð¾Ð¼ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ð¸Ð¸ Ð¾Ð¿Ñ€ÐµÐ´ÐµÐ»ÐµÐ½Ñ‹ ÐºÐ¾ÑÑ„Ñ„Ð¸Ñ†Ð¸ÐµÐ½Ñ‚Ñ‹ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»ÐµÑ‚Ð¾Ðº Ð¡ÐŸÐÐ’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÑÑ‚Ð¸Ð»ÐµÐ½Ð³Ð»Ð¸ÐºÐ¾Ð»Ñ (ÐÐ“), 1,2-Ð±ÑƒÑ‚Ð°Ð½Ð´Ð¸Ð¾Ð»Ð° (1,2-Ð‘Ð”), Ð³Ð»Ð¸Ñ†ÐµÑ€Ð¸Ð½Ð°, Ð´Ð¸Ð¼ÐµÑ‚Ð¸Ð»ÑÑƒÐ»ÑŒÑ„Ð¾ÐºÑÐ¸Ð´Ð° (Ð”ÐœÐ¡Ðž) Ð¸ Ð´Ð¸Ð¼ÐµÑ‚Ð¸Ð»Ñ„Ð¾Ñ€Ð¼Ð°Ð¼Ð¸Ð´Ð° (Ð”ÐœÐ¤Ð) Ð¿Ñ€Ð¸ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ð°Ñ… 35, 20 Ð¸ 5Â°Ð¡. Ð—Ð½Ð°Ñ‡ÐµÐ½Ð¸Ñ ÑÐ½ÐµÑ€Ð³Ð¸Ð¸ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ð¸Ð¸ Ð¿Ñ€Ð¾Ñ†ÐµÑÑÐ° Ð¿ÐµÑ€ÐµÐ½Ð¾ÑÐ° Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐÐ“, 1,2-Ð‘Ð” Ð¸ Ð”ÐœÐ¡Ðž Ñ‡ÐµÑ€ÐµÐ· Ð¿Ð»Ð°Ð·Ð¼Ð°Ñ‚Ð¸Ñ‡ÐµÑÐºÑƒÑŽ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½Ñƒ Ð² Ð´Ð¸Ð°Ð¿Ð°Ð·Ð¾Ð½Ðµ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€ 35...5Â°Ð¡ Ð±Ð»Ð¸Ð·ÐºÐ¸ Ð¸ Ð¿Ñ€Ð¸Ð¼ÐµÑ€Ð½Ð¾ Ð² 3 Ñ€Ð°Ð·Ð° Ð²Ñ‹ÑˆÐµ, Ñ‡ÐµÐ¼ ÑÐ½ÐµÑ€Ð³Ð¸Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ð¸Ð¸ Ñ‚Ñ€Ð°Ð½ÑÐ¿Ð¾Ñ€Ñ‚Ð° Ð³Ð»Ð¸Ñ†ÐµÑ€Ð¸Ð½Ð°. ÐŸÑ€Ð¸ 5Â°Ð¡ ÐºÐ¾ÑÑ„Ñ„Ð¸Ñ†Ð¸ÐµÐ½Ñ‚Ñ‹ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð³Ð»Ð¸Ñ†ÐµÑ€Ð¸Ð½Ð° Ð¸ 1,2-Ð‘Ð” Ð¿Ñ€Ð°ÐºÑ‚Ð¸Ñ‡ÐµÑÐºÐ¸ Ð¾Ð´Ð¸Ð½Ð°ÐºÐ¾Ð²Ñ‹, Ð”ÐœÐ¡Ðž Ð¸ ÐÐ“ Ð¿Ñ€Ð¸Ð¼ÐµÑ€Ð½Ð¾ Ð² 3 Ñ€Ð°Ð·Ð° Ð±Ð¾Ð»ÑŒÑˆÐµ, Ð° Ð”ÐœÐ¤Ð Ð²Ñ‹ÑˆÐµ Ð½Ð° Ñ‡ÐµÑ‚Ñ‹Ñ€Ðµ Ð¿Ð¾Ñ€ÑÐ´ÐºÐ°. ÐŸÑ€Ð¸ 35Â°Ð¡ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚ÑŒ Ð”ÐœÐ¤Ð ÑÑ€Ð°Ð²Ð½Ð¸Ð¼Ð° Ñ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚ÑŒÑŽ Ð²Ð¾Ð´Ñ‹, Ð° ÐºÐ¾ÑÑ„Ñ„Ð¸Ñ†Ð¸ÐµÐ½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ Ð³Ð»Ð¸Ñ†ÐµÑ€Ð¸Ð½Ð° Ð½Ð° Ð¿Ð¾Ñ€ÑÐ´Ð¾Ðº Ð¼ÐµÐ½ÑŒÑˆÐµ, Ñ‡ÐµÐ¼ ÐºÐ¾ÑÑ„Ñ„Ð¸Ñ†Ð¸ÐµÐ½Ñ‚Ñ‹ Ð¿Ñ€Ð¾Ð½Ð¸Ñ†Ð°ÐµÐ¼Ð¾ÑÑ‚Ð¸ ÐÐ“, 1,2-Ð‘Ð” Ð¸ Ð”ÐœÐ¡Ðž. ÐœÐµÑ‚Ð¾Ð´Ð¾Ð¼ Ð²Ð¾Ð»ÑŽÐ¼Ð¾Ð¼ÐµÑ‚Ñ€Ñ–Ñ— Ð²Ð¸Ð·Ð½Ð°Ñ‡ÐµÐ½Ñ– ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚Ð¸ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½ ÐºÐ»Ñ–Ñ‚Ð¸Ð½ Ð¡ÐŸÐ•Ð’ Ð´Ð»Ñ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» ÐµÑ‚Ð¸Ð»ÐµÐ½Ð³Ð»Ñ–ÐºÐ¾Ð»ÑŽ (Ð•Ð“), 1,2- Ð±ÑƒÑ‚Ð°Ð½Ð´Ñ–Ð¾Ð»Ñƒ (1,2-Ð‘Ð”), Ð³Ð»Ñ–Ñ†ÐµÑ€Ð¸Ð½Ñƒ, Ð´Ð¸Ð¼ÐµÑ‚Ð¸Ð»ÑÑƒÐ»ÑŒÑ„Ð¾ÐºÑÐ¸Ð´Ñƒ (Ð”ÐœÐ¡Ðž) Ñ‚Ð° Ð´Ð¸Ð¼ÐµÑ‚Ð¸Ð»Ñ„Ð¾Ñ€Ð¼Ð°Ð¼Ñ–Ð´Ñƒ (Ð”ÐœÐ¤Ð) Ð¿Ñ€Ð¸ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ð°Ñ… 35, 20 Ñ‚Ð° 5Â°Ð¡. Ð—Ð½Ð°Ñ‡ÐµÐ½Ð½Ñ ÐµÐ½ÐµÑ€Ð³Ñ–Ñ— Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ñ–Ñ— Ð¿Ñ€Ð¾Ñ†ÐµÑÑƒ Ð¿ÐµÑ€ÐµÐ½Ð¾ÑÑƒ Ð¼Ð¾Ð»ÐµÐºÑƒÐ» Ð•Ð“, 1,2-Ð‘Ð” Ñ‚Ð° Ð”ÐœÐ¡Ðž ÐºÑ€Ñ–Ð·ÑŒ Ð¿Ð»Ð°Ð·Ð¼Ð°Ñ‚Ð¸Ñ‡Ð½Ñƒ Ð¼ÐµÐ¼Ð±Ñ€Ð°Ð½Ñƒ Ð² Ð´Ñ–Ð°Ð¿Ð°Ð·Ð¾Ð½Ñ– Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€ 35...5Â°Ð¡ Ð±Ð»Ð¸Ð·ÑŒÐºÑ– Ñ‚Ð° Ð¿Ñ€Ð¸Ð±Ð»Ð¸Ð·Ð½Ð¾ Ñƒ Ñ‚Ñ€Ð¸ Ñ€Ð°Ð·Ð¸ Ð²Ð¸Ñ‰Ðµ, Ð½Ñ–Ð¶ ÐµÐ½ÐµÑ€Ð³Ñ–Ñ Ð°ÐºÑ‚Ð¸Ð²Ð°Ñ†Ñ–Ñ— Ñ‚Ñ€Ð°Ð½ÑÐ¿Ð¾Ñ€Ñ‚Ñƒ Ð³Ð»Ñ–Ñ†ÐµÑ€Ð¸Ð½Ñƒ. ÐŸÑ€Ð¸ 5Â°Ð¡ ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚Ð¸ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– Ð³Ð»Ñ–Ñ†ÐµÑ€Ð¸Ð½Ñƒ Ñ‚Ð° 1,2-Ð‘Ð” Ð¿Ñ€Ð°ÐºÑ‚Ð¸Ñ‡Ð½Ð¾ Ð½Ðµ Ð²Ñ–Ð´Ñ€Ñ–Ð·Ð½ÑÑŽÑ‚ÑŒÑÑ, Ð”ÐœÐ¡Ðž Ñ‚Ð° Ð•Ð“ Ð¿Ñ€Ð¸Ð±Ð»Ð¸Ð·Ð½Ð¾ Ñƒ Ñ‚Ñ€Ð¸ Ñ€Ð°Ð·Ð¸ Ð±Ñ–Ð»ÑŒÑˆÑ–, Ð° Ð”ÐœÐ¤Ð Ð²Ð¸Ñ‰Ñ– Ð½Ð° Ñ‡Ð¾Ñ‚Ð¸Ñ€Ð¸ Ð¿Ð¾Ñ€ÑÐ´ÐºÐ¸. ÐŸÑ€Ð¸ 35Â°Ð¡ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ñ–ÑÑ‚ÑŒ Ð”ÐœÐ¤Ð Ð¼Ð¾Ð¶Ðµ Ð±ÑƒÑ‚Ð¸ Ð¿Ð¾Ñ€Ñ–Ð²Ð½ÑÐ½Ð° Ð· Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ñ–ÑÑ‚ÑŽ Ð²Ð¾Ð´Ð¸, Ð° ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– Ð³Ð»Ñ–Ñ†ÐµÑ€Ð¸Ð½Ñƒ Ð½Ð° Ð¿Ð¾Ñ€ÑÐ´Ð¾Ðº Ð¼ÐµÐ½ÑˆÐ¸Ð¹, Ð½Ñ–Ð¶ ÐºÐ¾ÐµÑ„Ñ–Ñ†Ñ–Ñ”Ð½Ñ‚Ð¸ Ð¿Ñ€Ð¾Ð½Ð¸ÐºÐ½Ð¾ÑÑ‚Ñ– Ð•Ð“, 1,2-Ð‘Ð” Ñ‚Ð° Ð”ÐœÐ¡Ðž. Publishing House ‘Akademperiodyka’ of the National Academy of Sciences of Ukraine; Institute for Problems of Cryobiology and Cryomedicine 2011-02-21 Article Article Research article application/pdf https://cryo.org.ua/journal/index.php/probl-cryobiol-cryomed/article/view/153 Problems of Cryobiology and Cryomedicine; Vol. 21 No. 1 (2011): Problems of Cryobiology; 46-51 Проблемы криобиологии и криомедицины; Том 21 № 1 (2011): ÐŸÑ€Ð¾Ð±Ð»ÐµÐ¼Ñ‹ ÐºÑ€Ð¸Ð¾Ð±Ð¸Ð¾Ð»Ð¾Ð³Ð¸Ð¸; 46-51 Проблеми кріобіології і кріомедицини; Том 21 № 1 (2011): ÐŸÑ€Ð¾Ð±Ð»ÐµÐ¼Ñ‹ ÐºÑ€Ð¸Ð¾Ð±Ð¸Ð¾Ð»Ð¾Ð³Ð¸Ð¸; 46-51 2518-7376 2307-6143 en https://cryo.org.ua/journal/index.php/probl-cryobiol-cryomed/article/view/153/185 Copyright (c) 2020 N. A. Chernobay, I. F. Kovalenko, S. V. Koschiy, S. Ye. Kovalenko, L. F. Rozanov https://creativecommons.org/licenses/by/4.0

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